Medicament delivery device

ABSTRACT

The present invention relates to a medicament delivery device comprising a generally tubular distal housing part ( 10; 110 ) having opposite proximal and distal ends, wherein third mechanically coded interface means ( 11; 111 ) are arranged on its proximal end; a generally tubular proximal housing ( 20; 120 ) part having opposite proximal and distal ends and being releasibly connected to said distal housing part, wherein with fourth mechanically coded interface means ( 22; 122 ) are arranged on its distal end; a medicament container having a slidable stopper, wherein said container is arranged to be positioned within said proximal housing part; a plunger rod ( 60; 160 ) arranged within said distal housing; drive means arranged within said distal housing and being operably connected to said plunger rod for driving said plunger rod and thereby said stopper towards the proximal end of the device; wherein said device further comprises an interface member ( 50; 150 ) comprising first ( 51; 151 ) and second ( 52; 152 ) mechanically coded interface means arranged to match and interact with the third ( 11; 111 ) and the fourth ( 22; 122 ) mechanically coded interface means when the distal and the proximal housing parts are connected to each other.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a conitinuation of U.S. patent applicationSer. No. 13/003,894, filed Jan. 13, 2011, which is a U.S. National PhaseApplication pursuant to 35 U.S.C. § 371 of International Application No.PCT/EP2009/057550 filed Jun. 18, 2009, which claims priority to SwedishPatent Application No. 0801692-5 filed Jul. 15, 2008. The entiredisclosure contents of these applications are herewith incorporated byreference into the present application.

TECHNICAL FIELD

The present invention relates generally to a medicament delivery devicehaving an interface member comprising identification means.

BACKGROUND ART

Today, there are a large number of patients providing themselves, orbeing provided by others, with a medicament regimen using a medicamentdelivery device, such as an inhaler, an injector, or another type ofdispensing device including tablet dispensing devices. In many cases,the medicament is arranged, for example, in a container and the like (incase of an inhaler), in a, for example, cartridge (in case of aninjector), or, for example, in a blister package in case of a tabletdispensing device. Normally, information regarding the drug ormedicament is printed directly on the container or corresponding or onlabels attached to them so that the patient or the doctor can read whatkind of drug the container is filled with. Hence, there always a riskthat an incorrect dosage of the drug or medication is provided in thedevice with potential lethal implications due to, for example, the factthat the patient misinterprets or misreads the label of the container.

For example, many inhalers present on the market have the medicamentarranged in containers and the like, containing a number of doses ofmedicament. In some cases, the containers or canisters and the inhalersare adapted so that the containers can be replaced, e.g. replacing anempty container with a full. For example, the containers ofaerosol-driven inhalers are in the form of cylindrical metal canistersthat are placed in a space within the inhaler. Some powder inhalersutilize ampoules or a plurality of blisters arranged on bands.Nebulizers often use glass or plastic ampoules or blisters. As mentionedabove, information regarding the type of drug in these containers isoften printed directly on the container or on labels attached to them sothat the patient or the doctor can read what kind of drug and strengththe container is filled with, which may cause problems as discussedabove. The above-mentioned problems can be even worse due to the factthat a medicament regimen in many cases requires more than onemedicament as part of the regimen. For example, patients having diabetestake a combination of slow and fast acting types of insulin and it isimportant that the patient does not receive the incorrect medicament,i.e. that the medicaments do not become confused by mistake. As anexample, medication cartridges have been used with injectors (forexample, pen-type injectors) and are prevalently used in reusable ormulti-dose devices for invasive delivery of medication. However, in apen-type injector, a cartridge is inserted into the injector and used toprovide an injection. The injector does not have any method ofdetermining whether the medication cartridge is properly inserted orwhat type of medication is contained in the cartridge. The user mustmanually check the cartridge for proper insertion and must be sure thatthe medication is the right one, for example, whether the cartridgecontains insulin of a slow or fast acting type. This is important, sinceimproper insertion can result in the administration of an incorrectdosage of medication, which could result in injury or death. Inaddition, the user must know what type of medication is being used,since there are often different dosing requirements for differentconcentrations of the same medication. A number of different attemptshave been made in order to solve these problems.

U.S. Pat. No. 3,503,493 discloses such a medicament packaging device fordispensing of medicaments unit dosages in tablet form comprisingidentification means. The identification means includes on one sidepre-printed indicia concerning the drug contained within the unit dosepackage. At the other side of the identification means is anadhesive-coated surface arranged and thereby the identification meanscan be adhered to a document surface for documentation. The user, i.e. anurse, a doctor, an assistant or a patient, must manually check theidentification means in order to verify that a proper medicament isadministered to the patient. Accordingly, for example, a nurse, adoctor, an assistant or a patient can misinterpret or misread theindicia of the identification means, which may lead to that the patientis administered with an incorrect medicament.

U.S. Pat. No. 5,377,839 discloses such a medicament dosing system whichincludes a reusable integral patient dispensing frame which supports aplurality of reusable cartridges. Replaceable blister packages having aplurality of individually sealed spaced pockets can be inserted into thecartridge. The system provides for organization by patient (e.g.alphabetically by name, location etc.) time (e.g. am, pm, noon, hour ofsleep, etc). The user, i.e. a nurse, or a doctor, or a patient, mustmanually insert the blister packages and must organize the packages.Accordingly, for example, a nurse, a doctor, or a patient can insert ablister package containing an incorrect medicament due to, for example,misinterpretation or misreading of the information provided on thepackage, which may lead to that the patient is administered with anincorrect medicament.

In WO 94/16759 a detection system for an inhaler is disclosed. Thesystem comprises an inhaler arranged with a compartment adapted toreleasable receive a cassette with a certain shape. The cassette isprovided with a number of protrusions arranged in a specific pattern onits outer surface, a so called multi-bit code. The protrusions have tomate with a corresponding slotted disc or key-plate in order for thedevice to function. The cassette contains, in turn, an aerosol containerwith medicament. The multi-bit words represented by the protrusions maybe used to identify information such as type of drug, number of dosescontained, time between doses, when the dose is to be delivered duringinhalation, duration of the release and such. The inhaler body containsmicro-switches which are pressed by the protrusions. The combination ischecked against a library of stored delivery protocols in a storagemeans of the inhaler and the corresponding protocol is loaded into theelectronics of the inhaler. Instead of protrusions the cassette may beprovided with active or passive electronic circuit elements, such asimpedance values, digital code-words or memory devices. The electroniccircuit is electrically connected to the inhaler electronics. One majorproblem with this system is that the information is arranged on thecassette and not on the drug container itself. This leads to a ratherexpensive solution with an extra cassette. The electronic circuits alsocontribute to the fact that the solution will be rather expensive. Afurther problem is that it is possible to replace the aerosol canisterin the cassette, not very easily but yet fully feasible, to anothercanister containing, for example, another drug. The information providedon the cassette in form of the protrusions would then be misleading. Afurther drawback with the system disclosed in WO 94/16759 is that thecassette containing the information needs to be physically connected toelectrical and/or electronic means in the inhaler in order to for thesystem to be operable. Dirt, debris and the like may disturb theelectrical connection, whereby the inhaler is rendered non-functional.In addition, the cassette and the contacting means increase the overallsize of the inhaler.

WO 03/047665 discloses a combination of a medicament delivery apparatusand a medicament cartridge where the medicament delivery apparatusincludes switches and the medicament cartridge comprises a raised ringabout an external periphery of the medicament cartridge, the ring havingdimensions to trip at least one of the switches. The location along alongitudinal axis of the cartridge as well as shape and colour of thering provide an indication of the medicament contained within thecartridge. If the ring does not trip a specific switch connected to aprocessor, the medication delivery apparatus will not function. Thus, ifa cartridge containing an incorrect medication is inserted into theapparatus, the apparatus will not function. In such a case, the patientis forced to remove the cartridge from the apparatus again in order toverify that the cartridge actually contained an incorrect medicationsince there may be a possibility that the apparatus itself does notfunction in a proper way, for example, due to a defect in the electroniccircuits (e.g. the processor) of the apparatus. For patients, forexample, having an impaired vision it may be difficult to tell whether acartridge containing an incorrect medication was inserted into theapparatus or the apparatus itself does not function in a proper way.This is consequently not an ideal solution in a user friendly sense ofmeaning. Furthermore, due to the fact that, if a cartridge containing anincorrect medicament has been inserted into the apparatus and theapparatus accordingly does not function, the patient nevertheless has toremove the cartridge in order to verify that the inserted cartridgeactually contains an incorrect medicament, the solution offered by WO03/047655 is not an optimal solution in a risk management point of view.

U.S. Pat. No. 5,611,783 discloses a pen shaped syringe comprising aproximal part which may comprise a container and a distal partcontaining a dose setting and drive mechanism. The proximal and distalparts have interlocking bayonet coupling means. A mechanical coding asprotrusions may be provided to form a pattern ensuring that a certaindistal part may only be used in connection with a certain proximal part.The mechanical coding is provided between a dose assembly and acontainer holder.

WO 03/017915 discloses a container having a proximal end provided with amechanical coding. The mechanical coding has the form of a circularprotrusion where the circular outer diameter is dedicated a specificconcentration of insulin contained in the container. In this way only acontainer containing the correct concentration or a lower concentrationfits into a delivery system designed for a specific concentration ofinsulin. The mechanical coding is provided between the container and acontainer holder.

WO 2008/025772, WO 208/062065, WO 2008/009645, WO 2008/009647 and WO2008/000827 disclose containers having a distal end provided with amechanical coding and a dose assembly provided with a correspondingmechanical coding for eliminating cross use of the dose assembly and thecontainer. The mechanical coding is provided between a container and adose assembly.

EP0941133 discloses a drug cartridge assembly having a mechanical codingfor use with a reusable pen body assembly of a medication delivery penhaving a corresponding mechanical coding. The mating members of themechanical coding are selected so as to prevent cross-use with otherassemblies, e.g., the pitch of the threads may be angled so as to mateonly with one another and not with other assemblies. The mechanicalcoding is provided between a container and a dose assembly.

U.S. Pat. No. 5,693,027 discloses a plastic top for adapting a standardcartridge of the kind having a neck with a flange to a chosen syringe.This plastic top has a bore for receiving the neck part of thecartridge, which bore has a diameter making it fit over the metal coverand is provided with protrusions gripping behind the edge of the metalcover when the neck part is inserted in the bore. The outer contour ofthe plastic top is adapted to the syringe type in which the cartridge isgoing to be used. The plastic top is provided with a thread coaxial withthe bore to receive a needle hub.

WO 2008/009646 discloses a ring shaped element provided with a firstmechanical coding and a second mechanical coding, wherein said firstmechanical coding is arranged to cooperate with a correspondingmechanical coding of a dose assembly and wherein said second mechanicalcoding is arranged to cooperate with a corresponding coding of amedicament container.

WO 2008/059063 discloses a ring shaped element provided with fasteningmeans and a mechanical coding, wherein said fastening means are arrangedto cooperate with corresponding fastening means of a container holderand said mechanical coding is arranged to cooperate with a correspondingmechanical coding of a dose assembly.

While there have been proposed a variety of medicament delivery systemsincluding different types of identification solutions, such as describedabove, each have their own shortcomings, some of which have beendetailed above, as well as shortcomings being universal for all theabove-described systems. Generally, heretofore, there has not beenavailable a single concept which solves the above-mentioned problems.

Therefore it is an object of the present invention to provide analternative to the know systems wherein the coding has a higher degreeof security.

SUMMARY OF THE INVENTION

A main object of the present invention is to provide a medicamentdelivery device comprising a generally tubular distal housing parthaving opposite proximal and distal ends, wherein third mechanicallycoded interface means are arranged on its proximal end; a generallytubular proximal housing part having opposite proximal and distal endsand being releasibly connected to said distal housing part, wherein withfourth mechanically coded interface means are arranged on its distalend; a medicament container having a slidable stopper, wherein saidcontainer is arranged to be positioned within said proximal housingpart; a plunger rod arranged within said distal housing; drive meansarranged within said distal housing and being operably connected to saidplunger rod for driving said plunger rod and thereby said stoppertowards the proximal end of the device; wherein said device furthercomprises an interface member comprising first and second mechanicallycoded interface means arranged to match and interact with the third andthe fourth mechanically coded interface means when the distal and theproximal housing parts are connected to each other.

A further object of the invention is that said first mechanically codedinterface means are arranged to match and interact with thirdmechanically coded interface means arranged on the distal housing part,and wherein said second mechanically coded interface means are arrangedto match and interact with fourth mechanically coded interface meansarranged on the proximal housing part.

Another object of the present invention is that said interface member isfixedly connected to the medicament container.

Other aspects according to the further and the another object of thepresent invention are that said first and second mechanically codedinterface means are arranged on the outer surface of the interfacemember; that said third mechanically coded interface means are arrangedon the proximal inner surface of the distal housing part, and that saidfourth mechanically coded interface means arranged on the distal innersurface of the proximal housing part.

A further aspect according to the further and the another object of thepresent invention is that the proximal end of the distal housing partcomprises second fastening means on its outer surface and the distal endof the proximal housing part comprises first fastening means on itsinner surface, such that said distal housing part and said proximalhousing part may be fastened to each other by said first and secondfastening means when said first and third mechanically coded means andsaid second and fourth mechanically coded means comes into contact andmatch with each other; or that wherein the fourth and the thirdmechanically coded interface means comprises corresponding fasteningmeans, such that the proximal and the distal housing parts may befastened to each other; or that the first and the second mechanicallycoded interface means comprises fastening means that interfaces withcorresponding fastening means of the third and the fourth mechanicallycoded interface means, such that the proximal and the distal housingparts may be connected to each other.

Yet another object of the present invention is that said interfacemember is instead releasibly connected to both said proximal and distalhousing parts.

Other aspects according to the yet another object of the presentinvention are that said fourth mechanically coded interface means arearranged on the distal outer surface of the proximal housing part; thatthe first and the second mechanically coded interface means are arrangedon the inner surface of the interface member; and that the thirdmechanically coded interface means are arranged on the proximal outersurface of the distal housing part.

A further aspect according to the yet another object of the presentinvention is that the third mechanically coded interface means areinstead arranged on a second interface member having a ring-formedconfiguration and wherein the second interface member is releasiblyattached to the proximal end of the distal housing, such that the thirdmechanically coded interface means protrudes through a transversal sloton the proximal end of the distal housing.

Other aspect according to the yet another object of the presentinvention is that the third mechanically coded interface means arearranged to match and interact with the fourth mechanically codedinterface means, and that the first and second mechanically codedinterface means are attachment means that interacts with correspondingattachment means on the outer surface of both the proximal and distalhousing parts when the third and the fourth mechanically coded interfacemeans match and interact with each other.

Still another aspect according to the yet another object of the presentinvention is that is to the proximal end of the distal housing partcomprises first fastening means adapted to cooperate with correspondingsecond fastening means on the inner surface on the interface member whenthe first mechanically coded interface means match and interact with thethird mechanically coded interface means.

Still other objects of the present invention are that each of themechanically coded interface means comprises either male or femalemating means, or a combination of both male and female mating means; andthat each of the mechanically coded interface means has a predetermineddegree of geometry and mechanically match as geometrical form anddimension.

For purposes of clarity, the term “correct medicament container” canrefer to, inter alia, a medicament container having intended medicamentstrength, amount (or dose), or kind of medication, as well as timebetween doses, maximum or minimum time between doses. Accordingly, theterm “incorrect medicament container” can refer to a medicamentcontainer having an incorrect strength, amount (or dose), or kind ofmedication, as well as incorrect time between doses, incorrect maximumor minimum time between doses. The term medicament container assemblyrefers to a medicament container arranged within a proximal housingpart/container holder. The term power pack refers to the distal housingpart and all the technical features and technical means that arearranged within it.

This solution provides several advantages over the conventionaltechniques. One advantage is that a user, for example, a patient isprovided with two clear and distinct indications. The first indicationis whether the medicament container comprising the interface member heor she tries to connect to the proximal housing part is correct or not,or whether the medicament container assembly, he or she tries to connectto the interface member is correct or not. After the first indication iscorrect, the second indication is whether the medicament containerassembly comprising the medicament container with the interface memberor the medicament container assembly correct connected to the interfacemember, he or she tries to connect to the power pack is correct or not.That is, the power pack only accepts the correct medicament containerassembly since the user, for example, the patient cannot connect thepower pack to the medicament container assembly without using undulyforce or without manipulating any of the housings of the medicamentdelivery device, the interface member, using, for example, a tool.Thereby, the safety of the patient can be improved.

Another advantage of the present invention is that it can be securedthat only, for example, a medicament container from a certain producercan be used in with a correct medicament delivery device, since, forexample, containers containing the medicament from the certain producercan be arranged such that only these containers arranged with aninterface member or container assemblies interacting with an interfacemember disclose a clear degree of geometrical and mechanical matchbetween the interface member and the housings of the medicament deliverydevice.

A further advantage of the present invention is that the mechanicallycoded interface means that are arranged on the power pack may beprovided on a detachable part for the purpose of manufacturing a samepower pack for all mechanically coded interface members, but which canbe assembled with different detachable parts, wherein each differentdetachable part comprises a different mechanical interface means thatonly matches and interacts with the correct interface member.

The features that characterize the invention, both as to organizationand to method of operation, together with further objects and advantagesthereof, will be better understood from the following description usedin conjunction with the accompanying drawings. It is to be expresslyunderstood that the drawings is for the purpose of illustration anddescription and is not intended as a definition of the limits of theinvention. These and other objects attained, and advantages, offered bythe present invention will become more fully apparent as the descriptionthat now follows is read in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS

In the following detailed description of the invention, reference willbe made to the accompanying drawings, of which

FIG. 1 illustrates a medicament delivery device according to the presentinvention,

FIG. 2 illustrates an exploded perspective view of a first embodimentaccording to the present invention showing a distal housing, a proximalhousing, a container, a delivery member and an interface member,

FIG. 3, illustrates a perspective view of the proximal housing and ofthe interface member seen from a distal view according to the firstembodiment,

FIG. 4, illustrates an exploded perspective view of a second embodimentaccording to the present invention showing a distal housing, a proximalhousing, a plunger rod and an interface member,

FIG. 5, illustrates a perspective view of the proximal housing and ofthe interface member seen from a distal view according to the secondembodiment,

FIG. 6, illustrates a perspective view of the distal housing and of theinterface member according to the second embodiment,

FIG. 7, illustrates a perspective view of the distal housing and of asecond interface member according to the second embodiment,

FIG. 8, illustrates an exploded perspective view of a second deliveryassembly according to the second embodiment of the present inventionshown in FIGS. 4 & 5 illustrating a distal housing, a proximal housing,a plunger rod and an interface member,

FIG. 9, illustrates a perspective view of a second delivery assemblyaccording to the second embodiment of the present invention shown inFIGS. 4 & 5 illustrating a proximal housing and of the interface memberseen from a distal view according to the second embodiment.

DETAILED DESCRIPTION OF THE INVENTION

In the present application, when the term “distal part/end” is used,this refers to the part/end of the delivery device, or the parts/ends ofthe members thereof, which is/are located the furthest away from themedicament delivery site. Correspondingly, when the term “proximalpart/end” is used, this refers to the part/end of the delivery device,or the parts/ends of the members thereof, which, is/are located closestto the medicament delivery site.

The present invention relates to a medicament delivery device comprisinga generally tubular distal housing part 10; 110 having opposite proximaland distal ends, wherein the distal ends have a single opening 10 a; 110a and the third mechanically coded interface means 11; 111 are arrangedon its proximal end; a generally tubular proximal housing 20; 120 parthaving opposite proximal and distal ends and being releasably connectedto said distal housing part, wherein with fourth mechanically codedinterface means 22; 122 are arranged on its distal end; a medicamentcontainer having a slidable stopper, wherein said container is arrangedto be positioned within said proximal housing part; a plunger rod 60;160 arranged within the single opening in said distal housing such thatthe plunger moves axially in a proximal direction through the singleopening during dose delivery; drive means arranged within said distalhousing and being operably connected to said plunger rod for drivingsaid plunger rod and thereby said stopper towards the proximal end ofthe device; wherein said device further comprises an interface member50; 150 comprising first 51; 151 and second 52; 152 mechanically codedinterface means arranged to match and interact with the third 11; 111and the fourth 22; 122 mechanically coded interface means when thedistal and the proximal housing parts are connected to each other.

Further, the first mechanically coded interface means 51; 151 arearranged to match and interact with third mechanically coded interfacemeans 11; 111 arranged on the distal housing part, and wherein saidsecond mechanically coded interface means 52; 152 are arranged to matchand interact with fourth mechanically coded interface means 22; 122arranged on the proximal housing part.

In FIG. 1 is shown a medicament delivery device as a generally elongatedinjector. The proximal housing part is a medicament container holder 20capable of housing the container 40 e.g. a cartridge, a syringe, or thelike. The container holder is releasibly attachable to the distalhousing part 10 of the injector, which arranges the plunger rod 60 andthe drive means. The drive means may also include dose setting means andactuating delivery means. It is also to be understood that themedicament delivery device may be a pen-injector, an auto-injector, orany other kind of medicament delivery devices that comprises a distaland proximal housing parts that has to be connected and fastened to eachother.

In a first embodiment as shown in FIGS. 2 and 3, the medicament deliverydevice comprises the interface member 50 having a sleeve-formedconfiguration. The outer surface of the interface member comprises thefirst mechanically coded interface means 51 and the second mechanicallycoded interface means 52. The interface member 50 is arranged to befixedly attached and surrounding the container 40 such as a syringe,cartridge or the like by gluing, soldering or by other known process.The interface member is made of a material such that if an attempt toremove said interface member from said container is performed, saidinterface member is deformed. The distal end of the proximal housingpart comprises first fastening means 23, FIG. 3, on its inner surfaceadapted to cooperate with corresponding second fastening means 13, FIG.2, on the outer surface on the proximal end of the distal housing. Theproximal housing part is adapted to receive the container having theinterface member. The distal inner surface of the proximal housing partcomprises the fourth mechanically coded interface means 22, FIG. 3,arranged to match the second mechanically coded interface means 52 whenthe container with the interface member is placed within the proximalhousing part. The proximal inner surface of the distal housing comprisesthe third mechanically coded interface means 11, FIG. 2, arranged tomatch the first mechanically coded interface means 51, FIG. 2, of theinterface member such that the first fastening means 23 of the proximalhousing part and the second fastening means 13 of the distal housingpart may contact each other for fastening said proximal housing part tosaid distal housing part.

In FIG. 2 is also shown a delivery member 30 as pen needle havingattachment means as threads, bayonets, luer lock or the like, on itsinner surface which are arranged to cooperate with correspondingattachment means on the proximal outer surface of the proximal housingpart.

A variant of the first embodiment (not shown) is that neither theproximal end of the distal housing part nor the distal end of theproximal housing comprises fastening means. Instead, the fourth and thethird mechanically coded interface means comprises correspondingfastening means such as bayonet fixings, such that the proximal and thedistal housing parts may be fastened to each other.

Another variant of the first embodiment (not shown) is that neither theproximal end of the distal housing part nor the distal end of theproximal housing comprises fastening means. Instead, the first and thesecond mechanically coded interface means comprises fastening means thatinterfaces with corresponding fastening means of the third and thefourth mechanically coded interface means, such that the proximal andthe distal housing parts may be connected to each other.

Still another variant of the first embodiment (not shown) is thatneither the proximal end of the distal housing part nor the distal endof the proximal housing comprises fastening means. Instead, anattachment ring comprising attachment means on its inner surfaceinteract with corresponding attachment means on the outer surface ofboth the distal and proximal housing parts.

A further variant of the first embodiments is that the container ismanufactured comprising the interface member 50.

In a second embodiment as shown in FIGS. 4-6, the medicament deliverydevice comprises the interface member 150 having a sleeve-formedconfiguration. Said interface member is releasibly connected to bothsaid proximal 120 and distal 110 housing parts. As shown in FIG. 5, theinner surface of the interface member 150 comprises the firstmechanically coded interface means 151 and the second mechanically codedinterface means 152. The container is fixedly arranged inside theproximal housing part 120. The distal outer surface of the proximalhousing part comprises the forth mechanically coded interface means 122arranged to match the second mechanically coded interface means 152 whenthe proximal housing part is proximally passed through the interfacemember until the interface member is rotationally locked to the proximalhousing part such that the proximal housing is prevented of beingfurther moved towards the proximal end of the device. Further, theproximal end of the distal housing part comprises first fastening means113, FIG. 4, adapted to cooperate with corresponding second fasteningmeans 153, FIG. 6, on the inner surface on the interface member 150 whenthe first mechanically coded interface means 151 match and interact withthe third mechanically coded interface means 111 arranged on theproximal outer surface of the distal housing.

A variant of the second embodiment, as shown in FIG. 7, is that thethird mechanically coded interface means 111 are arranged on a secondinterface member 170A, 170B having a ring-formed configuration. Thesecond interface member is releasibly attached to the proximal end ofthe distal housing, such that the third mechanically coded interfacemeans 111 protrudes through a transversal slot 114 on the proximal endof the distal housing.

A further variant of the second embodiment (not shown) is that whereinthe third 111 mechanically coded interface means are arranged to matchand interact with the fourth 122 mechanically coded interface means, andthat the first 151 and second 152 mechanically coded interface means areattachment means that interacts with corresponding attachment means onthe outer surface of both the proximal and distal housing parts when thethird and the fourth mechanically coded interface means match andinteract with each other.

Each mechanically coded interface means of the interface member isarranged to mate each corresponding mechanically coded interface meansof the proximal housing part and of the distal housing part in a clearand distinct way establishing a clear geometrical and mechanicalidentification interface between the interface member and both theproximal housing part and the distal housing part, such that auser/patient cannot use an erroneous container/container holder in adistal housing part as described above and which is predetermined forexpelling a different kind of medicament that is arranged in thecontainer. For example, two delivery assemblies could be provided, whereeach delivery assembly is a stand-alone separate structure and does notshare components of the other delivery assembly. FIGS. 8 & 9 illustratea second delivery assembly having a plunger rod 160 a and an interfacemember 150 a that is releasably connected to both a proximal 120 a anddistal 110 a housing parts. The inner surface of the interface member150 a comprises the first mechanically coded interface means 151 a andthe second mechanically coded interface means 152 a. A medicamentcontainer is fixedly arranged inside the proximal housing part 120 a.The distal outer surface of the proximal housing part comprises thefourth mechanically coded interface means 122 a arranged to match thesecond mechanically coded interface means 152 a. The proximal housingpart 120 a is proximally passed through the interface member 150 a untilthe interface member is rotationally locked to the proximal housing partsuch that the proximal housing is prevented of being further movedtowards the proximal end of the device. Further, the proximal end of thedistal housing part comprises first fastening means 113 a (see FIG. 8)adapted to cooperate with corresponding second fastening means 153 a(see FIG. 9) on the inner surface on the interface member 150 a. Whenthe first mechanically coded interface means 151 a match and interactwith the third mechanically coded interface means 111 a arranged on theproximal outer surface of the distal housing. In one embodiment, thefirst mechanically coded interface means 151 (see FIG. 4) on theinterface member of the first delivery assembly (see FIGS. 4 & 5) isdifferent from the first mechanically coded interface means 151 a on theinterface member of the second delivery assembly (FIGS. 8 & 9) such thatthe interface member 150 (FIG. 4) of the first delivery assembly (FIGS.4 & 5) cannot connect to the third mechanically coded interface means111 a (FIG. 8) of the second delivery assembly (FIGS. 8 & 9).

It is to be understood that each of the mechanically coded interfacemeans comprises either male or female mating means, or a combination ofboth male and female mating means. It is also to be understood that eachof the mechanically coded interface means comprises a predetermineddegree of geometry and mechanical match as geometrical form anddimension.

Furthermore, the mechanically coded interface means can also bespring-loaded by means of a spring element (not shown).

It is to be understood that the embodiment described above and shown inthe drawing is to be regarded only as a non-limiting example of theinvention and that it may be modified in many ways within the scope ofthe patent claims.

The invention claimed is:
 1. Two delivery assemblies for medicamentdelivery devices, comprising: a first delivery assembly and a seconddelivery assembly that is a separate structure and not part of the firstdelivery assembly, each of the first delivery assembly and the seconddelivery assembly comprising: a distal assembly comprising: a distalhousing part having a proximal end and a distal end, where the proximalend has a single opening; a plunger rod positioned with the distalhousing part that moves axially in a proximal direction through thesingle opening during dose delivery; and a third mechanically codedinterface device arranged on the proximal end of the distal housingpart, a proximal assembly comprising; a proximal housing part having aproximal end and a distal end and releasably connected to the distalhousing part; a medicament container containing a medicament, where themedicament container has a slidable stopper and is configured to bepositioned within the proximal housing part; and an interface memberhaving a first mechanically coded interface device, where the interfacemember of the first delivery assembly is configured to match andinteract with the third mechanically coded interface device of the firstdelivery assembly when the distal and proximal housing parts areconnected to each other, wherein each of the interface members is aseparate stand-alone structure that is not part of, or connected to,either the distal or proximal housing parts until the distal andproximal housing parts are connected to each other, wherein the distalhousing part of the first delivery assembly is a separate stand-alonestructure that is not part of, or connected to, the distal housing partof the second delivery assembly, wherein the first mechanically codedinterface device on the interface member of the first delivery assemblyis different from the first mechanically coded interface device on theinterface member of the second delivery assembly such that the interfacemember of the first delivery assembly cannot connect to the thirdmechanically coded interface device of the second delivery assembly,wherein the plunger rod of the first delivery assembly is arrangedwithin and moves axially through the single opening in the distalhousing part of the first delivery assembly and the plunger rod of thesecond delivery assembly is arranged within and moves axially throughthe single opening in the distal housing part of the second deliveryassembly.
 2. The delivery assemblies of claim 1, wherein the interfacemember of the first delivery assembly and the proximal housing part ofthe first delivery assembly respectively include second and fourthmechanically coded interface devices arranged to match and interact witheach other.
 3. The delivery assemblies of claim 2, wherein the interfacemember of the second delivery assembly and the proximal housing part ofthe second delivery assembly respectively include second and fourthmechanically coded interface devices arranged to match and interact witheach other.
 4. The delivery assemblies of claim 1, where the firstmechanically coded interface device of the first delivery assembly isnot a screw thread.
 5. The delivery assemblies of claim 1, where thefirst mechanically coded interface device of the first delivery assemblydoes not directly connect the distal housing part of the first deliveryassembly to the proximal housing part of the second delivery assembly.